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And the possibility of a large pool of morsels might provide a natural accelerator for probing these citizens is what makes them so interesting. And according to the team, the signature of a large pool of morsels would be a delayed burst of high energy gamma rays waiting in all directions. Gamma rays, for instance, rate bursts. Like if you hear about fast radio bursts, etc. They're usually beams. In bursts, they'll become beams. They're not scattered all over. So that's what the new high energy gamma rays radiation beams would look like. They wouldn't be in any one direction. They'd be scattered all over. And instruments capable of detecting these high energy signals could be used in things like the atmosphere of Cherenkov's telescopes, also the high energy stereoscopic system, and the high altitude water tricloflop observatory in Mexico, even the high altitude air shower observatory in China, as well as satellite based detectors like the Fermi gamma ray space telescope. And in fact, some of these, as I've already had the sensitivity, is an important burst. This is repeater station Kilo Key 7 in Denver, Quebec, November. And the researchers adopted the right data from the high altitude water tricloflop observatory to place some upper limits on how much mass could be emitted in the form of morsels during the norms known as black pool mergers. And these limits represent the first observational limits of this really kind of weird new type of phenomena that we're looking at.